GB2235505A - Tractor/trailer braking apparatus - Google Patents

Description

Fluid Presslare Operable Braking Apparatus.

k k This invention relates to fluid pressure operable braking apparatus and relates especially to compressed air secondary and parking brake apparatus for tractor and trailer combinations.

Brake systems for tractor and trailer combinations of vehicles have been proposed wherein in addition to dual foot valve operable service and/or parking brake circuits the tractor vehicle is provided with secondary and/or parking brake circuits. Typically, a parking brake circuit includes a hand operable brake control valve which controls the application of fluid pressure from a reservoir or reservoirs of brake actuators of the tractor vehicle. Such actuators may be spring brake actuators a hold- off pressure to which is graduaiDly released in accordance with the setting of the control valve. For parking the vehicle the hand operable control valve may be placed in a locked position in which the control pressure is completelyvented to provide a demonstrated parking condition solely by virtue of the force exerted by_he spring brake actuators. If the vehicle has a trailer attached the trailer may typically be provided with a fluid pressure supply/emergency line and a control line, each such line being connected to a corresponding line of the tractor vehicle. For normal service braking a fluid pressure is relayed from the trailer reservoir (charged from the emergency - i. - supply line) to service brake actuators.For secondary operation the service actuators of the trailer are similarly controlled by the trailer control line pressure. For parking the combination the trailer line pressure is vented and the combination is parked by virtue of the tractor vehicle spring brake actuators being similarly vented.

mechanical braking means may be operated on the trailer by the driver after leaving the drivers cab if it is required to leave the combination for any period of time on a slope or, alternatively, the tractor is to be separated from the trailer.

An alternative proposal,more particularly relating to apparatus used in continental Europe,the hand operable control valve of the secondary and parking system is designed to have a parking position at which whilst the tractor spring brakes are vented the control line is lef- at full secondary control pressure. Thus, the combination is parked initially with full secondary braking force being applied by the service brake actuators on the trailer. in order to enable the driver to check that the tractor parking brakes are capable of holding the combinationon an incline, even with subsequent leakage of the secondary braking pressure from the trailer service braking actuators, the hand operable tractor control valve has been provided with a test position at which the control line pressure modified to a pressure corresponding to zero braking before being restored by the handle being returned to the park position. In such a system as referred to above it is very desirable to include anti- compounding means to ensure that excessive forces are not applied to the respective brake mechanisms by virtue of the combined effects of service braking on the one hand and secondary or parking braking on the other. In the case of a trailer with spring brake actuators such anticompounding means results in the trailer spring brakes not beig applied whilst the secondary/park brake pressure is present on the respective service chambers in the case of the above mentioned continental system.

The continental system thus has a shortcoming in that unless on each and every occasion the driver executes a test procedure resulting in venting of the control line to show that the combination is capable of remaining stationary on a slope, by virtue of the tractor parking brake forces alone, there is a risk that subsequent leakage of the brake control pressure on the trailer may result in sufficient reduction of braking force of the combination to allow the combination to move before the pressure reaches a value at which due to the anticompounding, the spring brakes start to become effective.

According to the invention there is provided vehicle compressed air braking apparatus including a manually operable parking and secondary brake pressure control valve operable over a range of positions to apply variable control pressure to brake actuator means of the vehicle for secondary braking and to a brake pressure control line for controlling trailer brakes, the i I control pressure to the control line increasing from a relatively low value (typically zero) towards a relatively high value for full secondary braking and said control valve having a selectable further parking condition in which it effects a full parking brake application on the vehicle and provides a pressure in the control line which is substantially less than said high value such as to produce parking brake force on a trailer which is correspondingly less than said full secondary braking.

In order that the invention may be more clearly understood and readily carried into effect, the same will be further described by way of example with reference to the accompanying drawings of which:

Fig. 1 illustrates a tractor vehicle compressed air braking Fig. 2 system, illustrates a trailer vehicle compressed air brake system and, Fig. 3 illustrates a hand operable control valve for use in the system of Fig. 1.

Referring to Fig. 1 the tractor vehicle compressed air braking apparatus shown therein includes a compressor 1, which is driven by the engine of the vehicle supplying compressed air via an air dryer 2 and a multi circuit protection valve 3 to individual reservoirs 4, 5 and 6. A governer and unloader device is denoted by reference 7, for effecting unloading of the compressor and purging of the air dryer when the sensed pressure of the reservoirs 4, 5 and 6 has breached a predetermined value. Reservoirs 4 and 5 constitute service brake reservoirs and provide outputs via connections 8 and 9 to supply circuit inputs of a dual circuit foot valve 10 which is operable in conventional manner as a service brake under the driver's foot. One output line 11 of the dual foot valve provides graduable service pressure to service brake actuator portions 13 of combined spring and service brake actuators to the front axle of the vehicle and the line 12 of the dual foot valve provides control pressure to corresponding service actuator portions 14 of combined spring and service actuators of the rear axle of the vehicle. However, in this case the pressures are variable with load by a variable load valve 15. Further, for the purposes of preventing compounding of service brake forces and parking brake force of the combined spring and service brake actuators, pressures from lines 11 and 12 are applied to differential protection valve 16 and 17 via which hold-off pressures are applied to the respective spring brake portions denoted by references 18, 19 on the front and rear axles.

1 1 Parking and secondary Prake control is effected by a hand operable control valve denoted by reference 20 which is supplied by fluid pressure via a check valve 6a. from reservoir 6. The control valve 20 has a first output line 21 for controlling a relay valve 22, the output pressure of which is applied via the respective anti-compounding valves 16,17 and respective quick release valves 23, 24 to the spring brake actuators 18, 19. The second output line from the control valve 20 denoted by reference 26 is applied as one input to a multi relay valve 27 having two further inputs comprising the pressures on lines 11, 12 from the dual circuit foot valve 10. The relay valve 27 is supplied with input pressure from the reservoir 6 and provides output pressure on control line 28 and a supply line pressure on line 29. These lines being for connection to a trailer braking system.

Referring to Fig. 2, the supply lines 28, 29 of the tractor circuit of Fig. 1 are coupled to respective lines 30, 31 whereby the supply pressure on line 31 is applied via a check valve to a trailer reservoir 32 for providing a supply to a relay valve 33 and a hand operable parking brake valve 34 of the trailer via a manoeuvring 7 4 valve 35. The control line is connected via a variable load valve 36 as a control input to relay valve 33. Service brake outputs of the relay valve 33 are applied directly to service/secondary actuating portions 37, 38 of two axles of the trailer vehicle. The actuators 38 are individual service chambers, whereas actuators 37 are provided by service portions of combined service and parking spring brake actuators 41 which are controlled via a quick release valves 43, via a double check valve 45. The double check valve 45 receives one controlling input on line 47 from the relay valve 33 and another controlling input on the line 45 from the hand operable control valve 34.

1 The operation of the service brake featu res of Fig.twill be described only briefly except in so far as it is necessary to enlargi upon it for the understanding of the invention.

The service brake system is entirely conventional, control pressure being applied to compressed air service actuator portions 18, 19 of the respective front and rear axles via completely independent circuits 11 and 12 from the driver's dual foot valve 10. Additionally, the pressures in lines 11 and 12 are each independently effectve on multirelay valve 27 to produce corresponding control line pressure on trailer control line 29. In the absence of one such output pressure of valve pressure 10, the other output/remains effective but the outputs are not additive for the purposes of the operation of the multi-relay valve 27.

The control line pressure on line 30) being applied to trailer relay emergency valve 33 (Fig.2), results in corresponding compressed air pressure being applied to actuator portions 38 and 39 for service braking on the trailer. In normal running the trailer parking valve 34 is set to a position wherein supply line pressure from line 31 is applied via man euvring valve 35 to the spring brake actuator portions via double check valve 45. The trailer parking brakes are therefore held in the fully pressurised (brakes release) condition.

1 k 9 In t he absence of service or secondary pressure on the trailer via line 30, if the parking brake handle of valve 34 is placed in the park position the spring brakes 41,42 are vented and therefore fully applied. Again, if the trailer is.so parked and no pressure is available on line 31, the maneouvring valve 35 can be operated to connect the spring brakes to reservoir 32, which if charged will allow the trailer to be moved.

Considering now the secondary and parking brake operation for the tractor and trailer combination, the handle of the hand operable control valve 20 is normally in an "off" condition for which line 21 and line 26 are both fully pressurised from reservoir 6. The spring brake actuator portions 18, 19 of the tractor vehicle are there fore held in a fully releasea corictition and the control line 28 leading to tne trailer system is vented by virtue of the valve 27 operating in inverse manner under control of the pressure from line 26. Movement of the control handle of valve 20 towards a secondary brake application,gives a cuicx initial reduction in the pressure on line 21 and then enables the pressures on lines 21 and 26 to be graaually reduced QvOr trie spring brake control range.

The hold-off pressure to the tractor vehicle spring brake actuators 18, 19 therefore reduces such as to allow tri,,-se actuators to produce brake force.Similarly, - the pressure on control line 28 increases to result in the relaying of pressure to the brake actuator portions 37, 38 of the trailer to provide secondary braking thereby under control of valve 20 up to a maximum secondary brake pressure value.

If the hand operable control valve is placed into its park position, the pressure on line 21 is now hend vented thereby fully applying the spring brakes on the tractor vehicle whereas the output pressure on line 26 is restored to a pressure value, typically chosen close to the pressure below which the spring brake actuators begin to apply brake force. Typically the secondary brakes may then produce a brake force one-third of the maximum service braking pressure value on control line 30.

Before leaving the driving position in the tractor vehicle driver should implement a test procedure resulting in temporary venting of the control line as provided for in the valve 20. However, the driver may leave the driver's cab without so doing and then manually operate the parking brake valve 34 on the trailer.

Placing the parking brake valve 34 on the trailer in its park position results in the line 48 to double check valve 45 being vented. Although the spring brake actuator portions 41 may not thereby be applied immediately because of the action of the double check valve 45, if the pressure on line 47 reduces into the control range of the spring brake 1 actuators the spring brakes come into operation, their forces then taking over from the pneumatic parking brake forces previously produced by actuator portions 37, 39.

The system thus offers parking brake effort on the tractor and trailer which is greater than provided by the tractor brakes and the risk of this effort being reduced due to control line pressure loss (even where a trailer parking brake is not operated) are low.

A sectional diagrammatical view of a hand operable control valve for use as the valve 20 of the tractor vehicle braking system of Fig. 1 is shown in Fig. 3. The valve comprises a main body part 51 with a lower cover plate 52 and an upper cover 53 having a suitably designed gate slot 50 (Fig.

3a) in which a control handle assembly 54 is able to control the position of a control cam fflember 55. As will be seen the control cam member is rotatable about a vertical axis W as seen in the drawing and also moveable along this axis all such movement being constrained by the shape of the gate slot 50. Within the main body part 51 a compressed air input passage 49 which receives compressed air from reservoir 6 (Fig. 1) communicates with two substantially identical graduable double valve assemblies 56 and 57 respectively controlled by the cam member 55 through respective plungers 58 and 59 which have upwardly projecting stems sealing with and slideable in the main body 51. Referring briefly to the valve assembly 56 this has an exhaust valve closure member 60 carried by the lower end of plunger 58 and engage able with a double valve member 61 slidingly carried in a 12 cylindrical piston 62.

Member 61 is itself urged by a light spring 63 against an annular seal 64 and 61 has a central vent passage 70 which is closeable by member 60 prior to unseating thereby of the member 61 from seat 64. A graduating spring 66 is captive between the lower plate 52 and piston 62 and a light captive c 1 13 L spring 67 acts in a sense to urge the plunger 87 upwards from the piston 62. The valve member 61 is provided with a small passage which communicates between the upper end thereof and a small enclosed annular region 69 to provide pressure balancing for the double valve member.

In operation of the plunger 58 and valve assembly 56, downward movement of the plunger 58 first causes the vent valve seat 61 to be closed, followed by unseating of valve member 61 from seat 64 providing communication between input passage 50 and an output region 71 above the piston 62. Since the underside of piston 62:is vented the piston moves downwards under the effect of the output pressure against the graduating spring 67 until the forces balance and the double valve laps. Such operation of a double valve is conventional and the assembly 57 operates in identical manner, under the influence of plunger 59.to produce a graduable output pressure in the further annular output region 72. In each case downward movement of the plunger results in increasing output pressure whereas upward movement of the plunger results in reduction of outpout pressure and eventual venting.

Referring to the handle and cam assembly this is so designed that over a normal control range 14 of angular movement about the mentioned vertical axis the plungers are moved axially by the cam. The output pressure in region 72 has an initial quite rapid drop for-a small movement of the handle 51 and then gradually reduces towards zero for graduating tractor spring brake portions 18 and 19 (Fig. 1) increasingly to apply the secondary Drakes on the tractor. Such action is accompanied by graduatec decrease also of pressure in output region 71 and i-ine 26 to result in progressing increase of the pressure in the control line 28 (Fig.2). When the position of the handle assembly reaches the full secondary brake position it reaches a (not shown) detent/beyond which by further movement in the same direction the cam surface profile operating plunger 59 drives the cam downward again to provide in a parking position a predetermined partial output pressure on control line 28,which.in accordance with the invention is such as to result in approximately one third of the maximum secondary brake capability on the trailer. In order to enable the driver of the tractor/trailer combination to test the parking capability of the tractor vehicle spring brakes alone, the handle assembly 54 is further moveable angularly in a downward direction about pivot 75 exclusively from the park position whereby the cam member 55 is lowered to cause the output pressure only in region 72 control to temporarily raise to full secondary/pressure.

Acting on the inverse input to valve 27 this fully j releases the trailer brakes but following return of the handle to the PARK position the partial control line pressure is reinstated.

In comparison with the previously known continental system, wherein when the hand operable secondary park control valve on the tractor vehicle produces maximum secondary brake pressure when placed in the park position, the apparatus in accordance with the present invention has a valve which in its park position produces pressure corresponding to a lower pressure on parking, shortcomings of the continental system are appreciably reduced. Indeed the initial parking control pressure can be so chosen that there is little parking brake force reduction before, on reduction of control line pressure, brakes begin to be applied because of anticompounding arrangement on the trailer. The result is that although the combination is capable of being parked on a greater incline than a U.K. system, (which relies virtually entirely upon the tractor parking capability,) the initial parking capability of the system is now maintained near to or within the eventual capability resulting from manual trailer brake application by the driver after leaving the driving position.

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Claims (3)

CLAIMS. 1. Vehicle compressed air braking apparatus including manually operable parking and secondary brake pressure control valve means (20) over a range of positions to cause variable control pressure to be applied to brake actuator means (18, 19) of the vehicle for secondary braking whilst also causing variable control pressure to be applied to a control line (28) for the brake system of a trailer, the pressure in the control line (28) varying between a relatively low value and a relatively high value corresponding to full secondary braking of a trailer and characterised in that said control valve means (20) has a further selectable position whereat it causes full parking brake application on the vehicle and establishes predetermined pressure in said control line (28) which is substantially less than said high value such as to cause trailer parking brake force which produces correspondingly less than said full secondary braking.

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2. Vehicle compressed air braking apparatus as claimed in claim 1, characterised in that in a case where a connected tractor is fitted with spring brake actuators the predetermined pressure is such that in the event of depletion thereof the trailer spring brake actuators can be brought into operation.

3. Vehicle compressed air braking apparatus as claimed in claim 1 or 2, characterised in that said manually operable control valve means has a further manually selectable position whereat control line pressure is releasable whilst maintaining parking brake application on the vehicle.

Published 1991 at The PatcntOfficc. State House. 66/71 High Holbom. LandonWCIR4TP.FurLhercopics may bcobtaincd from Sales Branch. Unit 6. Nine Mile Point, Cwmfelinfach. Cross Keys, NewporL NPI 7HZ. Printed by Multiplex techniques lid. St Mary Cray. Kent- 1 1